Publication detail

IN-LINE HEAT TREATMENT OF LONG PRODUCTS

HORSKÝ, J. KOTRBÁČEK, P.

Original Title

IN-LINE HEAT TREATMENT OF LONG PRODUCTS

English Title

IN-LINE HEAT TREATMENT OF LONG PRODUCTS

Type

conference paper

Language

en

Original Abstract

An in-line heat treatment of rolled materials is becoming frequently used by hot rolling plants. This method achieves the required material structure without the necessity of reheating. This paper describes a design procedure of cooling sections for obtaining the demanded structure and mechanical properties. An experimental stand, applied for the cooling study of steel samples, was built at the Brno University of Technology. The stand carries a movable trolley with a tested sample. The sample moves under the spray by a given velocity. The sensors indicate the temperature history of the tested material. This experimental stand enables to simulate a variety of cooling regimes and evaluate the final structure of the tested samples. The same experimental stand is a tool for the design of the cooling sections which can ensure obtaining demanded heat treatment procedure and demanded final structure. The HTC history at the surface is reached as an output of inverse task. Cooling examples of rails and tubes are presented in the paper.

English abstract

An in-line heat treatment of rolled materials is becoming frequently used by hot rolling plants. This method achieves the required material structure without the necessity of reheating. This paper describes a design procedure of cooling sections for obtaining the demanded structure and mechanical properties. An experimental stand, applied for the cooling study of steel samples, was built at the Brno University of Technology. The stand carries a movable trolley with a tested sample. The sample moves under the spray by a given velocity. The sensors indicate the temperature history of the tested material. This experimental stand enables to simulate a variety of cooling regimes and evaluate the final structure of the tested samples. The same experimental stand is a tool for the design of the cooling sections which can ensure obtaining demanded heat treatment procedure and demanded final structure. The HTC history at the surface is reached as an output of inverse task. Cooling examples of rails and tubes are presented in the paper.

Keywords

Heat treatment, hot rolling, spray cooling, heat transfer coefficient, final structure

RIV year

2014

Released

21.05.2014

Publisher

Tanger Ltd.

Location

Ostrava

ISBN

978-80-87294-54-3

Book

METAL 2014, 23rd International Conference on Metallurgy and Materials, Conference Proceedings

Pages from

1

Pages to

6

Pages count

6

Documents

BibTex 


@inproceedings{BUT107645,
  author="Jaroslav {Horský} and Petr {Kotrbáček}",
  title="IN-LINE HEAT TREATMENT OF LONG PRODUCTS",
  annote="An in-line heat treatment of rolled materials is becoming frequently used by hot rolling plants. This method
achieves the required material structure without the necessity of reheating.
This paper describes a design procedure of cooling sections for obtaining the demanded structure and
mechanical properties.
An experimental stand, applied for the cooling study of steel samples, was built at the Brno University of
Technology. The stand carries a movable trolley with a tested sample. The sample moves under the spray
by a given velocity. The sensors indicate the temperature history of the tested material. This experimental
stand enables to simulate a variety of cooling regimes and evaluate the final structure of the tested samples.
The same experimental stand is a tool for the design of the cooling sections which can ensure obtaining
demanded heat treatment procedure and demanded final structure. The HTC history at the surface is
reached as an output of inverse task. Cooling examples of rails and tubes are presented in the paper.",
  address="Tanger Ltd.",
  booktitle="METAL 2014, 23rd International Conference on Metallurgy and Materials, Conference Proceedings",
  chapter="107645",
  howpublished="electronic, physical medium",
  institution="Tanger Ltd.",
  year="2014",
  month="may",
  pages="1--6",
  publisher="Tanger Ltd.",
  type="conference paper"
}